2. WIND POWER
ďAll renewable energy (except tidal and geothermal power),
ultimately comes from the sun
ďThe earth receives 1.74 x 1017 watts of power (per hour)
from the sun
ďAbout one or 2 percent of this energy is converted to wind
energy (which is about 50-100 times more than the energy
converted to biomass by all plants on earth
3.
4. WIND POWER
ďWinds are influenced by the ground surface at altitudes up
to 100 meters.
ďWind is slowed by the surface roughness and obstacles.
ďThe amount of energy which the wind transfers to the rotor
depends on the density of the air, the rotor area, and the
wind speed.
ď The kinetic energy of a moving body is proportional to its
mass (or weight). The kinetic energy in the wind thus
depends on the density of the air.
5. WINDMILL DESIGN
ďA Windmill captures wind
energy and then uses a generator
to convert it to electrical energy.
ďThe design of a windmill is an
integral part of how efficient it
will be.
ďWhen designing a windmill, one
must decide on the size of the
turbine, and the size of the
generator.
6. WIND TURBINE
ďA wind turbine is a device that converts kinetic energy
from the wind into electrical power
ďThere are two types of wind turbines:-
Horizontal axis wind turbines
vertical axis wind turbines
7. WIND TURBINE:Number of blades
ďMost common design is the three-bladed turbine. The most important reason
is the stability of the turbine. A rotor with an odd number of rotor blades (and
at least three blades) can be considered to be similar to a disc when calculating
the dynamic properties of the machine.
ď A rotor with an even number of blades will give stability problems for a
machine with a stiff structure
8. WIND TURBINE GENERATORS
ďWind power generators convert wind
energy (mechanical energy) to electrical
energy.
ďThe generator is attached at one end to
the wind turbine, which provides the
mechanical energy.
ď At the other end, the generator is
connected to the electrical grid.
ďThe generator needs to have a cooling
system to make sure there is no
overheating.
9. WIND TURBINE GENERATORS
SMALL GENERATORS:
ď Require less force to turn than a larger ones, but give much lower power
output.
ď Less efficient
i.e.. If you fit a large wind turbine rotor with a small generator it will be
producing electricity during many hours of the year, but it will capture
only a small part of the energy content of the wind at high wind speeds.
LARGE GENERATORS:
ď Very efficient at high wind speeds, but unable to turn at low wind
speeds.
i.e.. If the generator has larger coils, and/or a stronger internal magnet, it
will require more force (mechanical) to start in motion.
10. WIND POWER IN INDIA
ď There is a growing number of wind energy installations in states across
India. By the end of March 2014, the states of India had a cumulative
installed capacity of 21264 MW.
STATE CAPACITY (in MW)
Tamil Nadu 7253
Maharashtra 4098
Gujrat 3414
Rajasthan 2820
Karnataka 2409
Andhra Pradesh 753
Madhya Pradesh 439
Kerala 55
Others 4.30
Total 21264
11.
12. ď India is the world's fifth largest wind power producer, with a generation
capacity of 20,149 MW up to December 2013
ď Shown here is a wind farm in Kayathar, Tamil Nadu.
13. WIND POWER
Advantages:-
ď Renewable Energy
ď Reduces Fossil Fuels Consumption
ď Less Air and Water Pollution
ď Initial Cost
Disadvantages:-
ď Noise Disturbances
ď Threat to Wildlife
ď Wind Can Never Be Predicted
ď Suited To Particular Region
14. Future of Wind Energy
ď Future of wind energy can be bright if government policies
subsidize and encourage its use
ď Technology improvements unlikely to have a major
impact.
ď Can become cost competitive for electricity generation if
fossil energy costs skyrocket